U.S. patent number 5,584,229 [Application Number 08/514,993] was granted by the patent office on 1996-12-17 for reduced temperature coffee brewer.
This patent grant is currently assigned to Bunn-O-Matic Corporation. Invention is credited to James H. Anson.
United States Patent |
5,584,229 |
Anson |
December 17, 1996 |
**Please see images for:
( Certificate of Correction ) ** |
Reduced temperature coffee brewer
Abstract
A beverage brewing appliance for producing a brewed beverage
having a serving temperature within a predetermined serving
temperature range. The beverage brewing appliance includes a
brewing apparatus for infusing a beverage brewing substance
retained therein to extract a brewed beverage therefrom. The
appliance also includes a first water source having a water heater
coupled thereto for delivering water to the brewing apparatus
within a predetermined range of brewing temperatures to produce a
desired brewed beverage. The brewing appliance also includes a
second water source which delivers temperature reduction water to
the brewed beverage within a temperature range which, when mixed
with the brewed beverage results in a final beverage dispensed from
the brewing apparatus within a predetermined serving temperature
ranges. The second water source is controlled to deliver a desired
quantity of temperature reduction water which will result in the
beverage being dispensed within the predetermined range of serving
temperatures.
Inventors: |
Anson; James H. (Auburn,
IL) |
Assignee: |
Bunn-O-Matic Corporation
(Springfield, IL)
|
Family
ID: |
24049556 |
Appl.
No.: |
08/514,993 |
Filed: |
August 14, 1995 |
Current U.S.
Class: |
99/280; 99/299;
99/307 |
Current CPC
Class: |
A47J
31/002 (20130101); A47J 31/0615 (20130101); A47J
31/402 (20130101); A47J 31/465 (20130101) |
Current International
Class: |
A47J
31/46 (20060101); A47J 31/06 (20060101); A47J
31/44 (20060101); A47J 31/00 (20060101); A47J
31/40 (20060101); A47J 031/00 () |
Field of
Search: |
;99/279,280,281,282,283,299,295,300,304,305,32R,307 ;426/433 |
References Cited
[Referenced By]
U.S. Patent Documents
Primary Examiner: Jenkins; Robert W.
Attorney, Agent or Firm: Trexler, Bushnell, Giangiorgi &
Blackstone, Ltd.
Claims
The invention claimed is:
1. A beverage brewing appliance for producing a brewed beverage
having a serving temperature within a predetermined range of
serving temperatures, said beverage brewing appliance
comprising:
a brewing apparatus for infusing a beverage brewing substance
retained therein to extract a brewed beverage therefrom;
a first water source coupled with said brewing apparatus for
delivering water at a brewing temperature within a predetermined
range of brewing temperatures to said brewing device for infusing
said brewing substance; and
a water heater coupled with said first water source for heating
said first water source water to said brewing temperature;
a second water source coupled with said beverage brewing appliance
for controllably delivering temperature reduction water at a
temperature which is at least less than said brewing temperature of
the water from said first water source, said temperature reduction
water from second water source being mixed with a brewed beverage
produced by said brewing apparatus for reducing the temperature of
the brewed beverage to said serving temperature prior to
serving.
2. A beverage brewing device as recited in claim 1, further
comprising a regulator coupled to said second water source for
controlling the quantity of temperature reduction water mixed with
said brewed beverage to produce a final brewed beverage having a
serving temperature within a predetermined serving temperature
range.
3. A beverage brewing device as recited in claim 2, wherein said
regulator is a manually controllable valve attached to said second
water source for controlling the quantity of temperature reduction
water mixed with said brewed beverage to produce a final brewed
beverage having a serving temperature within a predetermined
serving temperature range.
4. A beverage brewing device as recited in claim 2, further
comprising a temperature sensor coupled to said feed water line for
sensing the temperature of the water received from said feed water
line, and wherein said regulator is an automatic control valve
attached to said second water source and responsive to said
temperature sensor for controlling the quantity of temperature
reduction water mixed with said brewed beverage to produce a final
brewed beverage having a temperature within a desired serving
temperature range.
5. A beverage brewing device as recited in claim 1, further
comprising a feed water line connected to said first water source
and said second water source, and a control valve attached to said
feed water line for controllably dispensing a quantity of water to
said first and second water sources.
6. A beverage brewing device as recited in claim 5, further
comprising a heated water dispenser coupled to said feed water
line, said water dispenser having a heated water line and a reduced
temperature line which are combined to provide dispensing water
within a desired dispensing temperature range, said heated water
line being associated with said first water source and said water
heater for heating water in said heated water line to generally
said brewing temperature.
7. A beverage brewing device as recited in claim 6, further
comprising said first water source having a reservoir and said
water heater being coupled to said reservoir for retaining a
quantity of water in said reservoir in a heated condition, said
heated water dispenser having a heat transfer section in said
heated water line associated with said reservoir for heating water
in said heated water line to a temperature generally on the order
of the temperature of the water retained in said reservoir.
8. A beverage brewing device as recited in claim 5, further
comprising:
a first reservoir of said first water source retaining a quantity
of water in a heated condition within a temperature range generally
on the order of said brewing temperature;
a first delivery line communicating with said first reservoir and
said brewing apparatus for delivering water from said first
reservoir to said brewing apparatus for infusing said brewing
substance to produce a brewed beverage;
a second reservoir of said second water source retaining a quantity
of water in a heated condition within a predetermined reduction
temperature range;
a second delivery line communicating with said second reservoir and
said brewing apparatus for delivering water from said second
reservoir to said brewed beverage produced by said brewing
apparatus to reduce the temperature of said brewed beverage from
said brewing temperature to said serving temperature.
9. A beverage brewing device as recited in claim 8, further
comprising:
a first water heater being coupled to said first reservoir for
maintaining the temperature of the water in said first reservoir
within a range generally on the order of said brewing temperature;
and
a second water heater coupled to said second reservoir for
maintaining the temperature of the water in said second reservoir
within a range generally on the order of said reduction
temperature.
10. A beverage brewing device as recited in claim 9, further
comprising:
a controller coupled to said control valve, said regulator, said
first water heater, and said second water heater for coordinating
control to facilitate production of a brewed beverage within a
predetermined serving temperature range.
11. A beverage brewing device as recited in claim 8, further
comprising a regulator coupled to said second delivery line for
controlling the quantity of temperature reduction water dispensed
from said second reservoir for mixing with said brewed beverage to
produce a final brewed beverage having a serving temperature within
a predetermined serving temperature range.
12. A beverage brewing device as recited in claim 11, wherein said
regulator is a manually controllable valve attached to said second
delivery line for manually controlling the quantity of temperature
reduction water mixed with said brewed beverage to produce a final
brewed beverage having a serving temperature within a predetermined
serving temperature range.
13. A beverage brewing device as recited in claim 11, wherein said
regulator is an automatic control valve attached to said second
delivery line automatically controlling the quantity of temperature
reduction water dispensed from said second reservoir for mixing
with said brewed beverage to produce a final brewed beverage having
a serving temperature within a desired serving temperature
range.
14. A beverage brewing device as recited in claims 8, further
comprising:
a heated water dispenser coupled to said feed water line and
dispensing heated water within a predetermined dispensing water
temperature range;
said heated water dispenser having a heated water line and a
reduced temperature line which are combined to provide water within
said dispensing water temperature range;
said heated water line being associated with said first water
source and said first water heater for heating water in said heated
water line to generally said brewing temperature; and
said reduced temperature line being coupled to said second water
source for providing water from said dispenser having a dispensing
temperature generally between said brewing temperature and said
reduced temperature.
15. A beverage brewing device as recited in claim 14, further
comprising said heated water dispenser having a heat transfer
section in said heated water line disposed in said first reservoir
for heating water in said heated water line to a temperature
generally on the order of the temperature of the water retained in
said first reservoir.
16. A beverage brewing appliance for producing a brewed beverage
having a predetermined temperature, said beverage brewing appliance
comprising:
a brewing apparatus for infusing a beverage brewing substance to
extract a brewed beverage therefrom;
a first water source having a reservoir and a first delivery line
communicating with said first reservoir and said brewing apparatus,
said first water source retaining a quantity of water in said
reservoir in a heated condition and delivering water through said
first delivery line to said brewing device at a brewing temperature
for infusing said brewing substance;
a water heater coupled with said first water source for heating
said first water source water to said brewing temperature;
a second water source associated with said beverage brewing
appliance for controllably providing temperature reduction water at
a temperature which is less than the brew water from said first
water source, said temperature reduction water from second water
source being mixed with a brewed beverage produced by said brewing
apparatus for reducing the temperature of the brewed beverage prior
to serving;
a feed water line connected to said first water source and said
second water source;
a control valve attached to said feed water line for controllably
dispensing a quantity of water to said first and second water
sources; and
a regulator coupled to said second water source for controlling the
quantity of temperature reduction water mixed with said brewed
beverage to produce a final brewed beverage having a temperature
within a desired temperature range.
17. A beverage brewing device as recited in claim 16, further
comprising a temperature sensor coupled to said feed water line for
sensing the temperature of the water received from said feed water
line, and wherein said regulator is an automatic control valve
attached to said second water source and responsive to said
temperature sensor for controlling the quantity of temperature
reduction water mixed with said brewed beverage to produce a final
brewed beverage having a temperature within a desired temperature
range.
18. A beverage brewing device as recited in claim 17, further
comprising:
a controller coupled to said control valve, said regulator, said
first water heater, and said temperature sensor for coordinating
control of said brewing apparatus to facilitate production of a
brewed beverage within a predetermined serving temperature
range.
19. A beverage brewing device as recited in claims 16, further
comprising:
a heated water dispenser coupled to said feed water line and
dispensing heated water within a predetermined dispensing water
temperature range;
said heated water dispenser having a heated water line and a
reduced temperature line which are combined to provide water within
said dispensing water temperature range;
said heated water line being coupled to said first water source and
said first water heater for heating water in said heated water line
to generally said brewing temperature; and
said reduced temperature line being coupled to said second water
source for providing water from said dispenser having a dispensing
temperature generally between said brewing temperature and said
reduced temperature.
20. A beverage brewing device as recited in claim 19, further
comprising said heated water dispenser having a heat transfer
section in said heated water line associated with said first
reservoir for heating water in said heated water line to a
temperature generally on the order of the temperature of the water
retained in said reservoir.
21. A beverage brewing appliance for producing a brewed beverage
having a predetermined temperature, said beverage brewing appliance
comprising:
a brewing apparatus for infusing a beverage brewing substance to
extract a brewed beverage therefrom;
a first water source having a first reservoir and a first delivery
line communicating with said first reservoir and said brewing
apparatus, said first water source retaining a quantity of water in
said first reservoir in a heated condition and delivering water
through said first delivery line to said brewing apparatus at a
brewing temperature for infusing said brewing substance;
a second water source having a second reservoir and a second
delivery line communicating with said second reservoir and said
brewing device, said second reservoir retaining a quantity of water
in a heated condition and delivering water through said second
delivery line to said brewing device for controllably providing
temperature reduction water at a temperature which is less than the
brew water from said first water source, said temperature reduction
water from second water source being mixed with a brewed beverage
produced by said brewing device for reducing the temperature of the
brewed beverage prior to serving;
a second water heater coupled with said second water source for
heating water retained in said second water source water to said
temperature reduction temperature;
a feed water line connected to said first water source and said
second water source;
a control valve attached to said feed water line for controllably
dispensing a quantity of water to said first and second water
sources; and
a regulator coupled to said second water source for controlling the
quantity of temperature reduction water mixed with said brewed
beverage to produce a final brewed beverage having a temperature
within a desired temperature range.
22. A beverage brewing device as recited in claim 21, further
comprising:
a controller coupled to said control valve, said regulator, said
first water heater, and said second water heater for coordinating
control of said brewing apparatus to facilitate production of a
brewed beverage within a predetermined serving temperature
range.
23. A beverage brewing device as recited in claims 21, further
comprising:
a heated water dispenser coupled to said feed water line and
dispensing heated water within a predetermined dispensing water
temperature range;
said heated water dispenser having a heated water line and a
reduced temperature line which are combined to provide water within
said dispensing water temperature range;
a heat transfer section in said heated water line associated with
said first reservoir for heating water in said heated water line to
a temperature generally on the order of the temperature of the
water retained in said reservoir;
said reduced temperature line being coupled to said second water
source for providing water from said dispenser having a dispensing
temperature generally between said brewing temperature and said
reduced temperature.
Description
BACKGROUND
The present invention relates to beverage brewing apparatus and
more specifically to a beverage brewing apparatus, as well as a
method for brewing beverages, which produces a brewed beverage
within a desired beverage serving temperature range.
Recently, it has been discovered to be desirable to serve brewed
beverages at a temperature which is within a serving temperature
range which is lower than the temperature at which the beverage is
brewed. The serving temperature is an elevated temperature
satisfying a number of requirements for brewed beverages but which
is lower than a temperature at which a beverage is brewed. Often,
it is desirable to brew a beverage using water having a temperature
near or below boiling, i.e. 200.degree. F.+5.degree./-10.degree..
Through substantial effort, the brewing temperature has been
arrived at so that the proper flavor of the brewed beverage is
achieved by extraction of certain oils, solids and other
characteristics from a beverage brewing substance. When a brewing
temperature substantially under 200.degree. F. is used, the same
characteristics are not extracted from the beverage brewing
substance.
It is important to the food service industry that the
characteristics and quality of the brewed beverages which they
serve to their patrons are maintained at a high quality and
consistency. While it is advantageous to serve the brewed beverages
at lower temperatures, such lower temperatures would jeopardize the
quality, flavor, aroma and other characteristics of the brewed
beverage. As such, there is a need to provide a beverage brewing
appliance which brews a beverage using brewing water at a brewing
temperature and dispenses the beverage into a receptacle at a
serving temperature which is lower than the brewing temperature. It
should be noted, that while some heat is lost during the brewing
process, the heat loss generally is only a few degrees and is not
sufficient to lower the temperature to a preferred serving
temperature.
A variety of devices have been produced for use in brewing tea.
These devices are mentioned herein as background since they employ
a brewing appliance which brews a tea concentrate and then dilutes
the concentrate. These devices have been designed specifically for
use in brewing tea or for brewing coffee or tea using the same
device upon making modifications thereto.
U.S. Pat. No. 4,920,871 to Anson et al., U.S. Pat. No. 5,025,714 to
Brewer, and U.S. Pat. No. 5,113,752 to Brewer (all assigned to the
Assignee of the present invention upon the filing of the present
application) shows some form of tea brewing device as mentioned
hereinabove. These devices produce a tea concentrate and then
introduce water to dilute the tea concentrate. Advantageously, each
of the devices employs a double wall brewing funnel. Such a brewing
funnel provides an interior chamber for retaining a brewing
substance and a passage between the interior chamber and the outer
funnel wall for passage of water therethrough. The double walled
funnel provides the advantage of dispensing the dilution water used
to dilute the tea concentrate and the point at which the tea
concentrate is dispensed into a receptacle.
None of the above-referenced devices attempt to produce a brewed
beverage having a serving temperature within a predetermined
serving temperature range. In each of these devices, the goal is to
provide iced tea having a desired dilution without any discussion
of moderating the serving temperature.
As such, heretofore, Applicant does not know of any brewing
appliances which brew a beverage at a desired brewing temperature
and dispense the brewed beverage at a desired serving
temperature.
OBJECTS AND SUMMARY
A general object satisfied by the invention is to brew a beverage
at a brewing temperature to produce desired beverage brewing
characteristics and dispense the beverage for serving at a desired
serving temperature.
Another object satisfied by the invention is to provide a beverage
brewing appliance which eliminates operator interaction during each
brew cycle to achieve a desired serving temperature.
Yet another object satisfied by the invention is to produce a
brewed beverage having desired brewed characteristics which are
achieved by brewing at a desired brewing temperature yet dispensing
the brewed beverage at a serving temperature.
Briefly, and in accordance with the foregoing, the present
invention envisions a beverage brewing appliance for producing a
brewed beverage having a serving temperature within a predetermined
serving temperature range. The beverage brewing appliance includes
a brewing apparatus for infusing a beverage brewing substance
retained therein to extract a brewed beverage therefrom. The
appliance also includes a first water source having a water heater
coupled thereto for delivering water to the brewing apparatus
within a predetermined range of brewing temperatures to produce a
desired brewed beverage. The brewing appliance also includes a
second water source which delivers temperature reduction water to
the brewed beverage within a temperature range which, when mixed
with the brewed beverage results in a final beverage dispensed from
the brewing apparatus within a predetermined serving temperature
range. The second water source is controlled to deliver a desired
quantity of temperature reduction water which will result in the
beverage being dispensed within the predetermined range of serving
temperatures.
BRIEF DESCRIPTION OF THE DRAWINGS
The organization and manner of the structure and function of the
invention, together with further objects and advantages thereof,
may be understood by reference to the following description taken
in connection with the accompanying drawings, wherein like
reference numerals identify like elements, and in which:
FIG. 1 is a perspective view of a beverage brewing appliance
employing the features of the present invention to produce a brewed
beverage having a temperature within a predetermined serving
temperature range;
FIG. 2 is a generalized diagrammatic illustration of elements of
the invention which produce a desired beverage having a temperature
within a predetermined serving temperature range;
FIG. 3 is a schematic of a first version of the invention employing
a single heated water reservoir;
FIG. 4 is a schematic of a second version of the invention
employing two heated water reservoirs, heated to different
temperatures, used to produce a beverage having a temperature
within a desired serving temperature range;
FIG. 5 is a partial fragmentary, cross-sectional, elevational view
of a version of a double walled brewing funnel which is used with
the present invention to mix temperature reduction water with a
brewed beverage to achieve a desired beverage within the
predetermined serving temperature range; and
FIG. 6 is a partial fragmentary, cross-sectional, plan view taken
along 6--6 in FIG. 5.
DESCRIPTION
While the present invention may be susceptible to embodiment in
different forms, there is shown in the drawings, and herein will be
described in detail, embodiments with the understanding that the
present description is to be considered an exemplification of the
principles of the invention and is not intended to limit the
invention to that as illustrated and described herein.
A beverage brewing appliance 20 is shown in FIG. 1 which includes a
housing or body portion 22, an overhanging section 24 of the body
portion, and a brewing funnel 26 retained under the overhanging
section 24. A warmer plate section 28 is positioned underneath the
overhanging section 24 so that a receptacle 30 may be positioned
thereon to collect a brewed beverage dispensed from the brewing
funnel 26. The collected brewing substance retained in the
receptacle 30 is maintained at a desirable temperature by a warming
device 32 of the warmer section 28. A faucet 34 is provided
extending from the housing 22 so that heated water may be dispensed
for use in a variety of preparations including tea, or instant
foods such as soups and cereals.
The beverage brewing appliance 20 as shown in FIG. 1 is shown for
purposes of example only and is not intended to limit the invention
claimed herein to only the type of device as illustrated. To the
contrary, the present invention may be embodied in a number of
beverage brewing appliances which may include a number of different
housing 22 structures, receptacle 30 structures and may or may not
include a faucet 34.
A broad general diagrammatic representation of the present
invention is shown in FIG. 2. The overall general diagrammatic
illustration as shown in FIG. 2 will be elaborated on and more
fully described with reference to FIGS. 3 and 4. In order to
describe the overall general concept of the invention, however,
FIG. 2 is provided and described herein. In FIG. 2, a brewing
apparatus 36 is provided for infusing a beverage brewing substance.
The beverage brewing substance is retained in the beverage brewing
apparatus 36 and infused with water within a desired brewing
temperature range, generally 200.degree. F.+5.degree./-10.degree.
F. A first water source 38 is coupled to the brewing apparatus 36
for delivering water thereto. A water heater 40 is coupled to the
first water source 38 in order to heat the water from the first
water source 38 to the desired brewing temperature. In this regard,
the first water source 38 provides water at an initial temperature
42 whereupon the water heater 40 heats the water from the first
water source 38 to provide heated water 44 within a desired brewing
temperature range. The beverage brewing substance retained in the
brewing apparatus 36 is infused with the water 44 within the
desired brewing temperature range. The resultant infusion is
dispensed from the brewing apparatus 36 as a brewed beverage 46
having a temperature substantially on the order of the brewing
water 44.
A second water source 48 is employed to provide temperature
reduction water 50 which is mixed with the brewed beverage 46
dispensed from the brewing apparatus 36 to provide a final brewed
beverage 52 having a temperature within a predetermined serving
temperature range. A regulator 54 is associated with the second
water source 48 in order to controllably deliver temperature
reduction water 50 which is at least less than the brewing
temperature of the water 44 from the first water source 38 so as to
produce a reduction in the temperature to produce the final brewed
beverage 52 within the desired serving temperature range. The final
brewed beverage 52 is dispensed into the receptacle 30 for serving.
The present invention may be controlled to produce a final brewed
beverage 52 having a final serving temperature of 180.degree.
F.-190.degree. F. The present invention also may be controlled to
provide beverages having serving temperatures of, for example,
165.degree. F. or lower while still maintaining a consistent high
quality brewed beverage having essentially all of the desired
characteristics of a beverage served at 200.degree. F. The present
invention controllably brews a beverage at an optimum brewing
temperature to achieve desired brewed characteristics and serves
the beverage at a desired serving temperature.
The present invention, as will be described in further detail
hereinbelow, may be embodied in more than one version while
achieving substantially the same results. The overall function of
the present invention provides a final brewed beverage 52 directly
dispensed from the brewing apparatus 36 into a receptacle 30 to
prevent unintended tampering or inadvertent alteration which might
otherwise change the desired serving temperature range of the final
brewed beverage 52. By controlling the quantity and/or temperature
of the temperature reduction water 50 mixed with the initial brewed
beverage 46, the final brewed beverage 52 will be consistently
within a desired serving temperature range. Additionally, the final
brewed beverage 52 will provide the expected high quality coffee
characteristics since the brewing water 44 will be at a desired
brewing temperature thereby extracting the desired levels of
flavors, oils, solids, and other components of the brewed
beverage.
As an example of the present invention as shown in FIG. 2 and
consistent with FIGS. 3 and 4 to be described hereinbelow, the
invention is used to brew a brewed beverage at 200.degree. F. yet
the beverage which is dispensed into the receptacle will be at
approximately 165.degree. F. This example may be represented in
mathematical terms such that if "X" represents hot water, "Y"
represents temperature reduction water, and 64 ounces of brewed
beverage is desired, the equation is:
As such, a quantity of hot water, "X", and a quantity of cold
water, "Y" is combined to produce 64 ounces of brewed beverage. If
a finished beverage (52) is desired to have a serving temperature
of 150.degree. F., and the water from the second source 48 has a
temperature of 40.degree. F., then:
If a finished beverage 52 is desired to have a serving temperature
of 165.degree. F. and the water supplied by the second water source
48 is at 85.degree. F. then:
As can be seen, the equations can produce a quantity of brewed
beverage having a desired temperature in a rather precise manner.
In practice, a differentiation of approximately 3 to 5 ounces may
occur between the brewing water and the temperature reduction
water. This differentiation has a minor effect on the final serving
temperature. Additionally, the warming device 32 may be controlled
to maintain the desired serving temperature, for example,
165.degree. F., so that the desired temperature range is
maintained.
With further reference to FIG. 3, the beverage brewing appliance 20
is shown schematically. The beverage brewing apparatus 36 is
generally shown as the brew funnel 26, a spray head 56 coupled to
the first water source 38, and a timer controlled solenoid valve 58
coupled to a pressurized feedline 60 which brings water to the
beverage brewing appliance 20. The first water source 38 includes a
heated reservoir 62 and a first filling line 64 which connects to
the feedline 60 to bring water from the feedline 60 to the
reservoir 62 and a first delivery line 66. The first delivery line
66 communicates with the heated water reservoir 62 to transport
water from the reservoir 62 to the beverage brewing apparatus 36 so
that the beverage brewing substance may be infused with water
heated within a brewing temperature range.
While a pressurized feedline 60 is shown, it is envisioned that a
pourover basin may be associated with the beverage brewing 20 to
provide a source of water for the brewing process. The pourover
basin will provide essentially the same results as the feedline
60.
The second water source 48 includes a second delivery line 68 which
is connected to the feedline 60 to deliver water from the feedline
60 to the beverage brewing apparatus 36 for mixing with a brewed
beverage as described hereinabove and in greater detail
hereinafter. The control valve 58 connected to the feedline 60
provides a metered quantity of water to the beverage brewing
apparatus 36 upon initiation of a beverage brewing cycle. The
control valve 58 is controlled by a controller 70 over control line
71. Since both the first feedline 64 and the second delivery line
68 connect to the feedline 60 downstream from the control valve 58
the metered quantity of water will flow into both lines 64, 68 to
dispense a desired quantity of water for producing a desired
quantity of brewed beverage. A regulator 72 is coupled to the
second delivery line 68 so as to regulate how much water passing
through the control valve 58 passes through the second delivery
line 68. The regulator 72 meters the quantity of water which passes
through the second delivery line 68 and thus how much temperature
reduction water 50 is added to the brewed beverage 46 to produce
the final brewed beverage 52. The regulator 72 is shown as being a
controllable solenoid valve connected to the controller 70 over
control line 74. It is also envisioned that the regulator 72 may be
a manually controllably needle valve which is manually controllable
to meter only a desired quantity of water through the second
delivery line 68.
An additional advantage of the present invention is that while it
is designed to produce a brewed beverage having a serving
temperature within a desired serving temperature range, it can also
be converted or reverted to a brewing device which produces a
brewed beverage solely employing the first water source 38. In this
regard, in situations where the serving temperature may not be of
concern, the second water source 48 may be turned off thereby
requiring all of the water to produce the brewed beverage to come
from the first water source 38. In this regard, the regulator 54,
when embodied as the automatic solenoid valve, may be controlled by
the controller 70 to prevent flow through the second delivery line
68. In the same regard, if the regulator 54 is embodied as the
needle valve, the needle valve may be controlled to be shut off to
prevent flow of water through the second delivery line 68.
As shown in both FIGS. 3 and 4, a heated water dispenser assembly
76 may be provided with the beverage brewing apparatus 20. The
heated water dispenser 76 connects to the faucet 34 and dispenses
heated water at a temperature, for example 155.degree. F., which is
sufficient to properly prepare instant foods such as soups, cereals
and teas. The heated water dispenser water is generally
substantially cooler than the 200.degree. F.+5.degree.
F./-10.degree. F. temperature of the brewing water.
As shown in FIG. 3, the heated water dispenser assembly 76 connects
at one end 78 to the feedline 60 upstream of the solenoid valve 58
and at a second end 80 to the faucet 34. The heated water dispenser
assembly 76 includes a reduced temperature line 82 and a heated
water line 84. A heat transfer section 86 is coupled to the heated
water line 84 and passes through the heated water reservoir 62 in
order to heat the water passing through the heated water line 84. A
dispenser regulator 88 is coupled to the reduced temperature line
82 and to the controller 70 over line 89 in order to meter a
predetermined quantity of water to the faucet 34 in a manner
similar to the regulator 72 as discussed hereinabove.
The heated water dispenser 76 provides an essentially closed loop
system in order to prevent an depletion of the heated water
retained in the heated water reservoir 62. This closed loop
configuration helps to assure that the reservoir 62 maintains a
desired quantity of heated water for brewing at all times. This
prevents a drain of the brewing readiness on the brewing appliance
20 while still providing a source of heated water. In the closed
loop, the heat transfer section 86 prevents commingling of the
heated water dispenser 76 water with the brewing water retained in
the heated reservoir 62. Additionally, water for the heated water
dispenser 76 is taken from the feedline 60 independent of the
control valve 58. In this manner, water may be dispensed from the
heated water dispenser assembly 76 simultaneously with the brewing
process having little or no effect on the temperature of the
brewing water.
In use, the beverage brewing appliance 20 as shown in FIG. 3
produces a brewed beverage upon initiation of a brewing cycle. When
a brewing cycle is initiated the controller 70 operates the control
valve 58 over control line 71 to controllably admit a predetermined
quantity of water from the pressurized feedline 60 to the first and
second water sources 38, 40. The quantity of water is controlled by
the controller 70 which includes a brew timer which begins the brew
cycle after a start signal, or may incorporate a temperature sensor
90. The temperature sensor 90 is coupled to the feedline 60 and to
the controller 70 over control line 92 to sense the temperature of
the water passing through the feedline 60. Information regarding
the temperature of the water passing through the feedline 60 is
used by the controller 70 to control the regulator to 72 via
control line 74. The reservoir 62 as shown in FIG. 3 is the
"pourover" type such that when water is introduced into the
reservoir through the first feedline 64 the water will displace
water from the reservoir through the first delivery line 66 and
into the brewing apparatus 36. When water is introduced into the
reservoir 62, the water heater 40 will be activated in response to
a temperature reading to heat the water in the reservoir. It should
be noted, that the water heater 40 will also be activated in
response to a drop in the temperature of the water in the reservoir
62 when water is passed through the heat transfer section 86
thereby reducing the temperature of the water.
Water which is displaced from the reservoir 62 is dispensed through
the first delivery line 66 to the funnel 26. With reference to FIG.
5, the funnel 26 includes a primary chamber 94 which retains a
filter 96 and a quantity of beverage brewing substance 98. A
secondary chamber or passage 100 is provided in the funnel 26 so as
to bypass the primary chamber 94 and the grounds which are infused
by heated water. Heated water 44 distributed from the sprayhead 56
over the beverage brewing substance 98 is provided at a brewing
temperature thereby providing sufficiently heated water to
advantageously produced desired brewing effects. In this manner,
only heated water passes through the beverage brewing substance.
The brewed beverage 46 drains from the primary chamber 94 through
the filter 96 and through a foramenous surface 102 towards a bottom
the of the primary chamber 94.
Temperature reduction water 50 from the second water source 58 is
combined with brewed beverage 46 in a mixing chamber 104 defined
between an outlet 106 of the funnel 26 and the intersection of the
bypass section 100 with the outfeed from the foramenous structure
102. A brewed beverage 52 having a desired serving temperature is
dispensed from the dispensing port 106 into the receptacle 30
therebelow. The controller 70 controllably activates the warmer 32
over control line 108 to maintain the beverage retained in the
receptacle 30 at a desired serving temperature. It would be
undesirable to raise the temperature of the beverage retained in
the receptacle 30 using the warmer and as such the warmer 32
generally maintains the beverage at a temperature equal to or
somewhat less than the desired serving temperature.
Having described the general features of the invention with
reference to FIGS. 1 and 2, and the specifics of a first version as
shown in FIG. 3, and with further reference to FIGS. 5 and 6,
reference is now made to FIG. 4 to further describe a second
version of the present invention. Structures or elements which are
the same in the second version as shown in FIG. 4 as the first
version previously described are represented by the same reference
numerals. Structures or components having generally equivalent
functions will be described by the same reference numeral with the
addition of an alphabetic suffix "a".
With reference to FIG. 4, the first water source 38a includes the
heated water reservoir 62a and a heater 40a. A first feedline 64a
brings water to the reservoir 62a and a first delivery line 66a
provides a path from the reservoir 62a to the beverage brewing
apparatus 36. The water heater 40a maintains the water retained in
the first reservoir 62a at a temperature of approximately
200.degree. F. +5.degree. F./-10.degree. F. In other words, the
first reservoir 62a of the first water source 38a provides the
brewing water at the brewing water temperature of approximately
200.degree. in this second version of the invention.
The second water source 48a as shown in FIG. 4 includes a second
water reservoir 110 which maintains water therein at a
predetermined temperature by means of a water heater 112 which has
generally the same configuration as the heater 40a associated with
the first reservoir 62a. A second feedline 114 is connected to the
main feedline 60 to deliver water from the main feedline 60 to the
second reservoir 110. The second delivery line 68a provides a path
from the second reservoir 110 to the bypass passage 100 of the
brewing funnel 26. A regulator 72a is attached to the second
delivery line 68a in order to regulate the quantity of water which
is dispensed from the second reservoir 110 to the bypass passage
100 of the brewing funnel 26.
The heated water dispenser assembly 76a employed with the second
version of the invention as shown in FIG. 4 includes the heated
water line 84 which is coupled to the feedline 60 by way of the
heat transfer section 86 and the reduced temperature line 82a which
is coupled to the second water source 48a. A regulator 88a is
connected to the reduced temperature line 82a to meter the quantity
of water which is fed through the reduced temperature line 82a to
the faucet 34.
In use, the second version of the invention, consistent with the
general diagram as shown in FIG. 2, combines water from a first
water source 38a and a second water source 48a to produce a
beverage having desired characteristics and a serving temperature
within a desired serving temperature range. The temperature sensor
90 as shown in FIG. 3 is absent from FIG. 4 since the temperature
of the temperature reduction water from the second water source 48
will be a generally constant temperature having a generally known
value. As such, the regulator 72a may be simplified in that the
temperature sensor is not required. For a more accurate reading,
however, the temperature sensor may be associated with the valve
72a and the controller 70 so as to more precisely meter the
quantity of temperature reduction water to the brewing apparatus
36.
In general, the serving temperature of the second version may be
more precise or have a smaller deviation range since the
temperature of the water from the second water source 48a is more
consistent. The water retained in the second reservoir 110 is not
subject to temperature fluctuations as may be the version shown in
FIG. 3 as the result of the temperature of the water in the
feedline 60 may range, for example, range from 40.degree.
F.-85.degree. F., which introduces greater variability into the
system.
The heated water dispenser assembly 76a as shown in FIG. 4 is not a
closed circuit system as discussed with regard to the first version
of the invention. Water in the assembly 76a is drawn from the
second reservoir 110 through the reduced temperature line 82a.
While FIG. 4 shows a preferred second version, yet a further
variation of the invention connects the reduced temperature line
82a in the manner as shown in FIG. 3 to provide a true closed loop
system. In many circumstances, however, water may be drawn from the
second reservoir since the temperature will generally be much lower
than the temperature of the water in first reservoir 62. As such,
it will take a shorter period of time to heat the water in the
second reservoir 110 and therefore require a shorter cycle time to
recover the temperature when water is drawn therefrom through the
heated water dispenser 76a. The valve 88a meters a quantity of
water through the reduced temperature line 82a.
During a brewing cycle, once the brewing cycle is initiated, the
valve 58 meters a desired quantity of water from the pressurized
feedline 60 to the first and second reservoirs 62a, 110. Water is
introduced into the bottom of the reservoirs 62a, 110 so that the
heated water which rises towards the top as a result of convection
phenomena, will be displaced and dispensed through the first
delivery line 66a and the second delivery line 68a. The brewing
cycle is generally the same as described hereinabove such that the
valve 72a controllably regulates the quantity of water dispensed
into the bypass passage 100 of the funnel 26. The difference in the
version as shown in FIG. 4 is that the temperature of the water in
the second reservoir 110 will be substantially closer to the
temperature of the reservoir in the first reservoir 62a compared to
the version as shown in FIG. 3 where the water used in the second
water source 48 comes directly from the feedline 60, generally at
room temperature or cooler.
With reference to FIG. 3, the controller 70 includes a brew timer
of known construction which begins a brew cycle after a start
signal is received by the controller 70. The brew timer measures a
period of time related to the quantity of beverage 52 to be brewed.
The controller 70 then calculates the quantity of water which must
be dispensed through both the first delivery line 66 and the second
delivery line 68. The calculation operates the solenoid valve 58
over line 71 for a predetermined period of time. The controller 70
is preprogrammed to control the solenoid valve 58 to dispense only
a required quantity of water. If a controllable solenoid valve 72
is employed on the second feedline 68, the controller may also lo
control the solenoid valve 72 over line 74 to open a valve 72
simultaneous with the initiation of the brew cycle or at a
predetermined time after the intiation of the brew cycle. In this
manner, the temperature reduction water dispensed to the funnel 26
can be delivered simultaneous with the heated water or after a
predetermined quantity of heated water to the grounds. A delay of
dispensing temperature reduction water to the funnel 26 may be
employed to maintain a desired temperature in the brewing water.
Additionally, the valve 72 can be adjusted to dispense a desired
quantity of water depending on the temperature sensed by the
temperature sensor 90 of the water passing through the feedline 60.
Generally, at the end of the cycle, the controller 70 controls the
valve 58 over line 71 to prevent further dispensing water from the
feedline 60. The controller operates the heater 40 over control
line 116 to heat and maintain the water in the reservoir 62 at a
desired temperature.
With reference to FIG. 4, control valves 58, 72a and 118 can be
operated to control the operation and flow of water through the
brewing apparatus 36. In this regard, at the beginning of a brew
cycle, the solenoid valve 58 must be opened and thus controlled
over line 71 by the controller 70 to allow water to flow from the
feedline 60 to the first water source 38a and the second water
source 48a. The controller 70 can control the valve 72a associated
with the second water source 48a independent of the valve 118
associated with the first water source 38a. As such, the
temperature reduction water dispensed through the second line 68a
may be delayed to allow the heated water delivered through the
first line 66a to steep in the beverage brewing substance thereby
producing the desired results. This delay may be desired so that
the temperature reduction water does not reduce the temperature
during the brewing process and does not have any effect on the
characteristics on the beverage produced thereby. Alternatively,
the valves 72a, 118 may be operated over control lines 74a, 120 by
the controller 70 generally simulatenously. The second version as
shown in FIG. 4 provides a broad range of controllability to
produce precise brewing characteristics and maintain these
characteristics consistently over numerous batches of beverage.
As may be evident from the preceding description, the present
invention includes a novel method of brewing a beverage in a
beverage brewing appliance to produce a beverage having a
predetermined serving temperature. The method includes the steps of
placing a quantity of brewing substance in the brewing device 36
and dispensing a quantity of brewing water (42) from the first
water source 38. The water (42) is heated by a water heater 40 so
that the water dispensed to the brewing apparatus is at a brewing
temperature (44). The brewing water is used to infuse the beverage
brewing substance to produced a desired brewed beverage. Before the
brewed beverage is dispensed from the brewing apparatus, a quantity
of temperature reduction water is dispensed into the brewed
beverage for mixing the temperature reduction water and the brewed
beverage to produce a final brewed beverage having a serving
temperature within a predetermined temperature range.
While preferred embodiments of the present invention have been
shown and described, it is envisioned that those skilled in the art
may devise various modifications and equivalents without departing
from the spirit and scope of the appended claims. The invention is
not intended to be limited by the foregoing disclosure.
* * * * *